CN210660414U - Civil water conservancy power generation device - Google Patents

Abstract

A civil water conservancy power generation device relates to power generation equipment, which comprises a bottom sleeve, wherein an upper end sleeve is connected to the bottom sleeve in a sliding manner, a water inlet channel is arranged at the upper end of the upper end sleeve, the part of the water inlet channel extending into the upper end sleeve is connected with an upper end power generation groove, a water drainage channel is arranged on the upper end sleeve, a through hole is formed in the bottom of the upper end power generation groove, the upper end power generation groove is connected to a lower end power generation groove in a sliding manner, a power generator is arranged in the inner cavity of the lower end power generation groove, a waterproof cover is arranged at the upper end of the lower end power generation groove, a transmission shaft of the power generator penetrates through the waterproof cover to enter the upper end power generation groove, an impeller is arranged at the tail end of the transmission shaft of the power generator, and the power generation of a local river can be realized by introducing equipment in a water channel, thereby realizing civil hydropower equipment.

Description

Civil water conservancy power generation device

Technical Field

The utility model relates to a power generation facility especially relates to a civil water conservancy power generation facility.

Background

Hydroelectric power generation is a way of generating electricity, and the utilized water energy is mainly potential energy accumulated in water. The natural water flow is gathered by building to form water head, and the water flow is collected and regulated by reservoir. When water flows through the water turbine, the water turbine is pushed by the water flow to rotate, the water turbine drives the generator to generate electricity, mechanical energy is converted into electric energy, and the electric energy is transmitted to users through the power transformation and power transmission and distribution equipment. The water energy is a renewable energy source in the nature and is repeatedly regenerated along with hydrologic cycle. The hydraulic power generation does not consume fuel during operation, and the operation management cost and the power generation cost are far lower than those of a coal-fired power station. The hydroelectric power generation does not generate chemical change in the process of converting water energy into electric energy, does not discharge harmful substances, and has small influence on the environment, so that the hydroelectric power generation is clean energy. Traditional hydroelectric power generation needs large investment, needs to build a large-scale hydroelectric station, and cannot be miniaturized and civilized.

Disclosure of Invention

An object of the utility model is to provide a civil water conservancy power generation facility, the utility model discloses a dig the mode of leading through the ditch and introduce equipment with the river, let rivers realize the circulation flow in equipment, reach a closed return circuit to utilize those water to generate electricity, can realize the hydroelectric generation of local river, thereby need not to carry out hydroelectric generation through the mode of power station, reduce the cost, thereby can realize civilian hydroelectric generation equipment.

The utility model aims at realizing through the following technical scheme:

the utility model provides a civil water conservancy power generation facility, sliding connection has an upper end sleeve on the sleeve of the device bottom, the telescopic upper end in upper end is equipped with the inlet channel, the inlet channel stretches into the telescopic position in upper end is connected with upper end electricity generation groove, be equipped with the water drainage on the sleeve of upper end, the bottom of upper end electricity generation groove is equipped with the through-hole, upper end electricity generation groove sliding connection is on lower extreme electricity generation groove, the inner chamber of lower extreme electricity generation groove is equipped with the generator, the upper end of lower extreme electricity generation groove is equipped with the waterproof cover, the transmission shaft of generator passes the waterproof cover and gets into upper end electricity generation groove, the end of the transmission shaft of generator is equipped with the impeller.

The civil water utilization power generation device is characterized in that a waterproof pad is arranged between the lower end power generation groove and the waterproof cover.

According to the civil water utilization power generation device, the protective cover is arranged on the upper end sleeve.

The utility model provides a civil water conservancy power generation facility, the quantity of through-hole is greater than 4, and evenly distributed is in the bottom of upper end electricity generation groove.

The civil water conservancy power generation device is characterized in that the height of the water inlet channel is greater than or equal to that of the water drainage channel.

The utility model provides a civil water conservancy power generation facility, the pulley can be replaced and dismantle on the orbit slider.

The utility model has the advantages and effects that:

the utility model discloses a dig mode of leading through the ditch and introduce equipment with the river, let rivers realize the circulation flow in equipment, reach a closed return circuit to utilize those water to generate electricity, can realize the hydroelectric generation of local river, thereby need not to carry out hydroelectric generation through the mode of power station, reduce the cost, thereby can realize civilian hydroelectric generation equipment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

The components in the figure: 1 bottom sleeve, 2 generators, 3 waterproof covers, 4 through holes, 5 impellers, 6 water inlet channels, 7 upper end power generation grooves, 8 water drainage channels, 9 upper end sleeves and 10 lower end power generation grooves.

Detailed Description

The present invention will be described in detail with reference to the embodiments shown in the drawings.

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Fig. 1 shows, the utility model discloses sliding connection has upper end sleeve 9 on the sleeve 1 of bottom, forms outside sleeve and provides the whole space underground of equipment, and the scalable of equipment can conveniently be transported simultaneously.

The upper end of upper end sleeve 9 is equipped with inlet channel 6, inlet channel 6 stretches into the position of upper end sleeve 9 is connected with upper end electricity generation groove 7, be equipped with drain 8 on the sleeve 9 of upper end, the bottom of upper end electricity generation groove 7 is equipped with through-hole 4, provides complete circulation runner, is provided with the flexible function synchronous with the sleeve simultaneously.

Upper end electricity generation groove 7 sliding connection is on lower extreme electricity generation groove 10, the inner chamber of lower extreme electricity generation groove 10 is equipped with generator 2, the upper end of lower extreme electricity generation groove 10 is equipped with waterproof cover 3, waterproof cover 3 entering upper end electricity generation groove 7 is passed to the transmission shaft of generator 2, the end of the transmission shaft of generator 2 is equipped with impeller 5, has set up the function that power generating equipment had possessed the electricity generation.

And a waterproof pad is arranged between the lower end power generation groove 10 and the waterproof cover 3, so that water is prevented from entering the lower end power generation groove 10 and entering the power generator 2 inside.

The higher authority of upper end sleeve 9 is equipped with the visor, can bury hydroelectric component to the below ground, and the visor can prevent that soil from getting into power generation facility.

The number of the through holes 4 is larger than 4, and the through holes are uniformly distributed at the bottom of the upper end power generation groove 7, so that water in the upper end power generation groove 7 can be uniformly and quickly discharged.

The height of the water inlet channel 6 is larger than or equal to that of the water drainage channel 8, so that the whole equipment can generate electricity rapidly and meanwhile the potential energy is larger than the drainage position.

The utility model discloses the during operation, prolong slip department with bottom sleeve 1 and upper end sleeve 9 and stretch and bury to the underground, introduce the ditch from near river and flow in inlet channel 6, 6 water entering upper end sleeves 9 of inlet channel to make generator 2 generate electricity in 7 departments of upper end electricity generation groove, later flow in through-hole 4 and form a hydrologic cycle through 8 discharges of water drainage ways after bottom sleeve 1, can use in addition need not to make the dam because its scalable convenient transportation, it becomes civilian hydroelectric generation's equipment.

Claims (5)

1. A civil water conservancy power generation device is characterized in that an upper end sleeve (9) is connected on a sleeve (1) at the bottom of the device in a sliding way, the upper end of the upper end sleeve (9) is provided with a water inlet channel (6), the part of the water inlet channel (6) extending into the upper end sleeve (9) is connected with an upper end power generation groove (7), a water drainage channel (8) is arranged on the upper end sleeve (9), a through hole (4) is arranged at the bottom of the upper end power generation groove (7), the upper end power generation groove (7) is connected on the lower end power generation groove (10) in a sliding way, the inner cavity of the lower end power generation groove (10) is provided with a power generator (2), the upper end of the lower end power generation groove (10) is provided with a waterproof cover (3), the transmission shaft of the generator (2) penetrates through the waterproof cover (3) to enter the upper end power generation groove (7), and the tail end of the transmission shaft of the generator (2) is provided with an impeller (5).

2. The civil water conservancy power generation device of claim 1, characterized in that, be equipped with waterproof pad between lower extreme power generation groove (10) and waterproof cover (3).

3. The civil water conservancy power generation device of claim 1, characterized in that, the upper end sleeve (9) is provided with a protective cover.

4. The civil water power plant according to claim 1, characterized in that the number of the through holes (4) is more than 4 and is evenly distributed at the bottom of the upper end power generation groove (7).

5. The civil water power plant as claimed in claim 1, wherein the water inlet channel (6) has a height greater than or equal to the water discharge channel (8).

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